% File src/library/graphics/man/grid.Rd
% Part of the R package, https://www.R-project.org
% Copyright 1995-2024 R Core Team
% Distributed under GPL 2 or later

\name{grid}
\alias{grid}
\title{Add Grid to a Plot}
\description{
  \code{grid} adds an \code{nx} by \code{ny} rectangular grid to an
  existing plot.
}
\usage{
grid(nx = NULL, ny = nx, col = "lightgray", lty = "dotted",
     lwd = par("lwd"), equilogs = TRUE, nintLog = NULL)
}
\arguments{
  \item{nx, ny}{number of cells of the grid in x and y direction.  When
    \code{NULL}, as per default, the grid aligns with the tick marks on
    the corresponding \emph{default} axis (i.e., tickmarks as computed by
    \code{\link{axTicks}}).  When \code{\link{NA}}, no grid lines are
    drawn in the corresponding direction.}
  \item{col}{character or (integer) numeric; color of the grid lines.}
  \item{lty}{character or (integer) numeric; line type of the grid lines.}
  \item{lwd}{non-negative numeric giving line width of the grid lines.}
  \item{equilogs}{logical, only used when \emph{log} coordinates and
    alignment with the axis tick marks are active.  Setting \code{equilogs =
      FALSE} in that case gives \emph{non equidistant} tick aligned
    grid lines.}
  \item{nintLog}{one or two integers (or \code{NULL}), passed to
    \code{\link{axTicks}()} when \code{nx} or \code{ny} are to be
    determined; effective only with log coordinates.}
}
\value{
  A list of the x (\code{"atx"}) and y (\code{"aty"}) coordinates at
  which the grid lines were drawn is returned invisibly.
}
\note{
  If more fine tuning is required, use \code{\link{abline}(h = ., v = .)}
  directly.
}
\seealso{
  \code{\link{plot}}, \code{\link{abline}}, \code{\link{lines}},
  \code{\link{points}}.
}
\references{
  \bibshow{R:Murrell:2005}
}
\examples{
plot(1:3)
grid(NA, 5, lwd = 2) # grid only in y-direction

## maybe change the desired number of tick marks:  par(lab = c(mx, my, 7))
op <- par(mfcol = 1:2)
with(iris,
     {
     plot(Sepal.Length, Sepal.Width, col = as.integer(Species),
          xlim = c(4, 8), ylim = c(2, 4.5), panel.first = grid(),
          main = "with(iris,  plot(...., panel.first = grid(), ..) )")
     plot(Sepal.Length, Sepal.Width, col = as.integer(Species),
          panel.first = grid(3, lty = 1, lwd = 2),
          main = "... panel.first = grid(3, lty = 1, lwd = 2), ..")
     }
    )
par(op)

plot(1:64)
gr <- grid() # now *invisibly* returns the grid "at" locations
str(gr)
stopifnot(length(gr) == 2, identical(gr[[1]], gr[[2]]),
          gr[["atx"]] == 10*(0:6))

## In log-scale plots :
plot(8:270, log="xy") ; grid() # at (1, 10, 100); if preferring "all" grid lines:
plot(8:270, log="xy") ; grid(equilogs = FALSE) -> grll
stopifnot(identical(grll, list(atx = c(1, 2, 5, 10, 20, 50, 100, 200),
                               aty = c(         10, 20, 50, 100, 200))))

x <- 2^(-9:70)
plot(log(x) ~ x, log="xy")
grll <- grid(equilogs = FALSE, col = adjustcolor("green", 1/3))
gr20 <- grid(nintLog = 20)
gr25 <- grid(nintLog = 25, col="thistle")
str(gr25)
stopifnot(exprs = {
    grll$aty == c(1, 2, 5, 10, 20, 50)
    length(gr20$atx) >= 20 # 24 effectively
    all.equal(10^(-3:22), gr25$atx, tol = 1e-15)  # even tol = 0
})
}
\keyword{aplot}
